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Energy Loss in Hydraulic Jump given Mean Velocities Formula

GoEnergy loss in Hydraulic Jump Formula

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Energy loss for Rectangular Channel is the loss of energy of flowing water. Check FAQs

S r = \frac{{(d 2R - d 1R)}^{3}}{4 \cdot d 1R \cdot d 2R} \cdot v m

S_r - Energy loss for Rectangular Channel?d_2R - Depth of Point 2 for Rectangular Channel?d_1R - Depth of Point 1 for Rectangular Channel?v_m - Mean velocity?

Energy Loss in Hydraulic Jump given Mean Velocities Example

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Here is how the Energy Loss in Hydraulic Jump given Mean Velocities equation looks like with Values.

Here is how the Energy Loss in Hydraulic Jump given Mean Velocities equation looks like with Units.

Here is how the Energy Loss in Hydraulic Jump given Mean Velocities equation looks like.

0.0002 = \frac{{(1.2 - 1.1)}^{3}}{4 \cdot 1.1 \cdot 1.2} \cdot 1.1

0.0002J = \frac{{(1.2m - 1.1m)}^{3}}{4 \cdot 1.1m \cdot 1.2m} \cdot 1.1m/s

0.0002 = \frac{{(1.2 - 1.1)}^{3}}{4 \cdot 1.1 \cdot 1.2} \cdot 1.1

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Energy Loss in Hydraulic Jump given Mean Velocities Solution

Follow our step by step solution on how to calculate Energy Loss in Hydraulic Jump given Mean Velocities?

FIRST Step Consider the formula

S r = \frac{{(d 2R - d 1R)}^{3}}{4 \cdot d 1R \cdot d 2R} \cdot v m

Next Step Substitute values of Variables

∴

S r = \frac{{(1.2m - 1.1m)}^{3}}{4 \cdot 1.1m \cdot 1.2m} \cdot 1.1m/s

Next Step Prepare to Evaluate

∴

S r = \frac{{(1.2 - 1.1)}^{3}}{4 \cdot 1.1 \cdot 1.2} \cdot 1.1

Next Step Evaluate

∴

S r = 0.000208333333333332J

LAST Step Rounding Answer

∴

S r = 0.0002J

Energy Loss in Hydraulic Jump given Mean Velocities Formula Elements

Variables

Energy loss for Rectangular Channel

Energy loss for Rectangular Channel is the loss of energy of flowing water.

Symbol: S_r

Measurement: EnergyUnit: J

Note: Value should be greater than 0.

Formulas to find Energy loss for Rectangular Channel

Depth of Point 2 for Rectangular Channel

Depth of Point 2 for Rectangular Channel is the depth of point below the free surface in a static mass of liquid.

Symbol: d_2R

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Depth of Point 2 for Rectangular Channel

Depth of Point 1 for Rectangular Channel

Depth of Point 1 for Rectangular Channel is the depth of point below the free surface in a static mass of liquid.

Symbol: d_1R

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Depth of Point 1 for Rectangular Channel

Mean velocity

Mean velocity of a fluid in a pipe or channel normally means the flow rate divided by the cross-sectional area of the flow.

Symbol: v_m

Measurement: SpeedUnit: m/s

Note: Value should be greater than 0.

Formulas to find Mean velocity

Other Formulas to find Energy loss for Rectangular Channel

Go Energy loss in Hydraulic Jump

S r = \frac{{(d 2R - d 1R)}^{3}}{4 \cdot d 1R \cdot d 2R}

Other formulas in Hydraulic Jump in Rectangular Channel category

Go Discharge Per Unit Width of Channel given Conjugate Depths

q = \sqrt{(d 1R \cdot d 2R \cdot (d 1R + d 2R)) \cdot [g] \cdot 0.5}

Go Conjugate Depth y1 given Discharge per Unit Width of Channel

d 1R = 0.5 \cdot d 2R \cdot (- 1 + \sqrt{1 + \frac{8 \cdot (q^{2})}{[g] \cdot d 2R \cdot d 2R \cdot d 2R}})

Go Conjugate Depth y2 given Discharge per Unit Width of Channel

d 2R = 0.5 \cdot d 1R \cdot (- 1 + \sqrt{1 + \frac{8 \cdot (q^{2})}{[g] \cdot d 1R \cdot d 1R \cdot d 1R}})

Go Conjugate Depth y2 given Critical Depth

d 2R = 0.5 \cdot d 1R \cdot (- 1 + \sqrt{1 + \frac{8 \cdot ({h c}^{3})}{{d 1R}^{3}}})

How to Evaluate Energy Loss in Hydraulic Jump given Mean Velocities?

Energy Loss in Hydraulic Jump given Mean Velocities evaluator uses Energy loss for Rectangular Channel = ((Depth of Point 2 for Rectangular Channel-Depth of Point 1 for Rectangular Channel)^3)/(4*Depth of Point 1 for Rectangular Channel*Depth of Point 2 for Rectangular Channel)*Mean velocity to evaluate the Energy loss for Rectangular Channel, The Energy Loss in Hydraulic Jump given Mean Velocities is defined as the amount of energy lost in the gradually varied flow in the channel of the stream. Energy loss for Rectangular Channel is denoted by S_r symbol.

How to evaluate Energy Loss in Hydraulic Jump given Mean Velocities using this online evaluator? To use this online evaluator for Energy Loss in Hydraulic Jump given Mean Velocities, enter Depth of Point 2 for Rectangular Channel (d_2R), Depth of Point 1 for Rectangular Channel (d_1R) & Mean velocity (v_m) and hit the calculate button.

FAQs on Energy Loss in Hydraulic Jump given Mean Velocities

What is the formula to find Energy Loss in Hydraulic Jump given Mean Velocities?

The formula of Energy Loss in Hydraulic Jump given Mean Velocities is expressed as Energy loss for Rectangular Channel = ((Depth of Point 2 for Rectangular Channel-Depth of Point 1 for Rectangular Channel)^3)/(4*Depth of Point 1 for Rectangular Channel*Depth of Point 2 for Rectangular Channel)*Mean velocity. Here is an example- 0.000208 = ((1.2-1.1)^3)/(4*1.1*1.2)*1.1.

How to calculate Energy Loss in Hydraulic Jump given Mean Velocities?

With Depth of Point 2 for Rectangular Channel (d_2R), Depth of Point 1 for Rectangular Channel (d_1R) & Mean velocity (v_m) we can find Energy Loss in Hydraulic Jump given Mean Velocities using the formula - Energy loss for Rectangular Channel = ((Depth of Point 2 for Rectangular Channel-Depth of Point 1 for Rectangular Channel)^3)/(4*Depth of Point 1 for Rectangular Channel*Depth of Point 2 for Rectangular Channel)*Mean velocity.

What are the other ways to Calculate Energy loss for Rectangular Channel?

Here are the different ways to Calculate Energy loss for Rectangular Channel-

Energy loss for Rectangular Channel=((Depth of Point 2 for Rectangular Channel-Depth of Point 1 for Rectangular Channel)^3)/(4*Depth of Point 1 for Rectangular Channel*Depth of Point 2 for Rectangular Channel)

Can the Energy Loss in Hydraulic Jump given Mean Velocities be negative?

No, the Energy Loss in Hydraulic Jump given Mean Velocities, measured in Energy cannot be negative.

Which unit is used to measure Energy Loss in Hydraulic Jump given Mean Velocities?

Energy Loss in Hydraulic Jump given Mean Velocities is usually measured using the Joule[J] for Energy. Kilojoule[J], Gigajoule[J], Megajoule[J] are the few other units in which Energy Loss in Hydraulic Jump given Mean Velocities can be measured.

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Energy Loss in Hydraulic Jump given Mean Velocities Formula

​GoEnergy loss in Hydraulic Jump Formula

Energy Loss in Hydraulic Jump given Mean Velocities Example

Energy Loss in Hydraulic Jump given Mean Velocities Solution

Energy Loss in Hydraulic Jump given Mean Velocities Formula Elements

Other Formulas to find Energy loss for Rectangular Channel

Other formulas in Hydraulic Jump in Rectangular Channel category

How to Evaluate Energy Loss in Hydraulic Jump given Mean Velocities?

FAQs on Energy Loss in Hydraulic Jump given Mean Velocities

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GoEnergy loss in Hydraulic Jump Formula